A system (100) for disinfecting exhaled air of a ventilator (90) is disclosed. The system (100) comprises an exhale tube (10) coupled to a patient breathing interface of the ventilator, a disinfecting unit (20) coupled to the exhale tube, an exhaled air analyzer (30) for detecting operational parameters of the exhal...

Described herein is a solar tracker controller system 100 and a method for sequentially controlling multiple solar tracker tables T1 to Tn of a solar power system. A processor 102 is provided that is configured to select one or more solar tracker tables T1 to Tn to be controlled by actuating a multiplexing unit, and...

The present disclosure describes a ventilator system (100) and method for providing respiratory assistance to a patient. The system comprises an inspiratory manifold (10), an inspiratory pump (11) coupled to the inspiratory manifold (10) for supplying gas to the patient. The system further comprises an expiratory ma...

A method (400) of testing ventilators (116) is disclosed. The method (400) may include receiving a test input corresponding to one or more tests to be executed on a plurality of ventilators (116). Each of the plurality of ventilators (116) may be communicatively coupled to a testing server 102 over a first communica...

A method (600) of optimizing proportional valve response is disclosed. The method (600) may include receiving an actuation signal inputted to a proportional valve actuator (102) and receiving a feedback signal from a flow sensor (108) corresponding to a response of the proportional valve actuator (102) to the actuat...

A method (500) of logging ventilator data is disclosed. The method (500) may include receiving (502) status data associated with one or more peripherals associated with a ventilator, and receiving (506) at least one selection of a verbose level from a plurality of verbose levels. Each of the plurality of verbose lev...

A ventilator (300) is disclosed that includes an Oxygen source (302), an air source (304), and a mixing chamber (306) to mix a supply of Oxygen and a supply of air to generate Oxygen-air mixture. The ventilator (300) further includes an expiratory module (326) and a second tube-assembly (328) coupling the Oxygen sou...

ABSTRACT A ventilator circuit (100) for maintaining a positive end expiratory pressure (PEEP) is disclosed that may include an Oxygen source (102), an air source (104), and a mixing chamber (106) to generate Oxygen-air mixture. The ventilator circuit (100) may further include an inspiratory line (110) to supply Oxy...

The present disclosure provides a flow sensor (100) including a flow sensor housing (102); a flexible PCB (104) positioned in the housing (102) and adapted in a fluid flow path; and a magnet (122) and a strain gauge (108) positioned in the flow sensor housing (102) such that current is supplied to the flexible PCB (...

Present invention relates to an apparatus (100) for rinsing at least one pressure sensing tube (106). The apparatus (100) comprising a high-pressure gas source (102), a first Normally Closed (NC) valve (108-1), a second Normally Closed (NC) valve (108-2), and at least one pressure sensing tube (106). High-pressure g...

Approaches for minimizing hysteresis effect in linear motors are described. In one example, a system may include a plurality of MOSFETs configured in a H-bridge. A motor driver may be in communication with the plurality of MOSFETs to control the operation of each of the MOSFETs. A controller may be coupled to the mo...

The present disclosure provides a valve (100) to regulate flow rate of a fluid, said valve (100) including: a flexible PCB (102) acting as a flow control component to controllably block path of the fluid, wherein said flexible PCB (102) is in a first position; at least one magnet (120) in proximity to the flexible P...

The present disclosure pertains to a system and method for maintaining pressure in a ventilator comprising a pressure sensor (102) mounted in an inspiratory line of a ventilator, a control unit (104) configured with a microcontroller, a PID controller, and a memory that stores a set of instructions executable by the...

The present disclosure provides a system (100) and method (400) for regulating gas pressure in a ventilator (102) for a user (190). The system includes an inlet module (104), an outlet module (120) and a controller (200) configured to receive a range of pressures for the ventilator; open the outlet module to vent th...

The present disclosure provides a bi-directional flow sensing device (100) comprising a fluid conduit (102) including a flow restriction member (104) with a hole (104-1) adapted to produce a pressure drop when placed in line with fluid flow, and conduit ports (106-1, 106-2); a sensor body (108) fluidically configure...

The present disclosure provides a system (100) and methods (400) and (500) for regulating gas pressure during inspiratory and expiratory phases in a ventilator (102) for a user (190). The system (100) comprises an inspiratory module (104) including an Oxygen source (106), an air source (110), flow control valves (10...

The present invention provides a system (100) and method for leakage compensation in a ventilator device. The system (100) can comprise a Proportional Integral Derivative (PID) controller (106) configured to detect a leakage of a ventilator gas in the ventilator device in runtime time due to a plurality of factors. ...

The present disclosure provides a system (100) and methods (400) and (500) for regulating gas pressure during inspiratory and expiratory phases in a ventilator (102) for a user (190). The system (100) comprises an inspiratory module (104) including an Oxygen source (106), a turbine (110), a flow control valve (108),...

The present invention provides a system (100) for achieving Continuous Positive Airway Pressure (CPAP) in dual limb circuit. The system (100) comprises a first inlet valve (102) receives air from external source, a second inlet valve (104) receives oxygen from external source. A mixing chamber (126) coupled to first...

Present invention provides a system (100) for regulating pressure in a ventilator. The system (100) comprises first inlet valve (102) receives air from external source, second inlet valve (104) receives oxygen from external source. Mixing chamber (126) coupled to first (102) and second inlet valves (104), and config...

The present invention provides a system (100) for achieving Bi-level Continuous Positive Airway Pressure (CPAP) mode of ventilation, the system. The system (100) comprises a first inlet valve (102) receives air from external source, a second inlet valve (104) receives oxygen from external source. A mixing chamber (1...

A VENTILATION SYSTEM AND A METHOD FOR PROVIDING PRESSURE CONTROL VENTILATION The present disclosure provides pressure-controlled ventilation method 300 and system 100 for an efficient and fast delivery of desired quantity of oxygen to patients. The method comprises providing an air chamber 102 and an oxygen cham...

“VENTILATOR INCLUDING AIRFLOW CONTROL SYSTEM” A ventilator system (10) comprises an air conduit (21) for supplying 5 air, an oxygen conduit (31) for supplying oxygen, a mixing chamber (40) for receiving air and oxygen to form an inhalation charge, and a patient breathing interface (60) to receive the inhalation ...

Disclosed is a ventilation apparatus for a ventilator. The ventilation apparatus comprises gas inlet manifold; gas blender implemented as concentric pipe arrangement having external pipe assembly, internal pipe assembly, and external chamber plate; linear actuation arrangement; and gas outlet manifold, wherein when ...

The present disclosure provides a system (102) and method (300) for controlling operation of a humidifying apparatus (120). The system (102) includes a ventilating apparatus (110) adapted to supply a ventilating gas to a user (104). The humidifying apparatus (120) is adapted to regulate a moisture content in the ven...

Disclosed herein is a valve system for controlling fluid flow and a method thereof. The valve system comprises a valve housing connected with a plunger having a diaphragm attached therewith such that the plunger is movably placed upon a valve seat within the valve housing, wherein the valve housing is connected with...

The present disclosure relates to a device (100A) for enabling integration and remote operation and monitoring of one or more medical equipment in real-time through advanced communication protocols and physical ports, improving operational efficiency and clinical decision-making processes. The device (100A) includes...

Embodiments of the present disclosure relate to an expiratory valve (100) of a ventilator to maintain an appropriate exhalation profile of a ventilated patient. In an aspect, the expiratory valve (100) of a ventilator includes an expiratory diaphragm (102) coupled to a linear actuator and configured to maintain an a...

The present disclosure relates to a system (102) for QRS complex detection, beat classification, and arrhythmia detection in electrocardiogram (ECG) signals. System (102) receives ECG signals from a user (106) and filters noise to remove baseline wander and high-frequency artifacts to improve signal quality. System ...